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Space History for October 11
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1758
Born, Heinrich Wilhelm Matthaus Olbers, German astronomer (discovered comets, asteroids Pallas and Vesta, Olbers' paradox: "In a static infinite universe the night sky should be bright.")
ref: TheSkyIsWhite.org
1885
J. Perrotin discovered asteroid #252 Clementina.
1889
Died, James Prescott Joule, British physicist
James Prescott Joule (24 December 1818 - 11 October 1889) was an English physicist. He studied the nature of heat, and discovered its relationship to mechanical work, which led to the theory of conservation of energy (the First Law of Thermodynamics). The SI unit of work, the joule (pronounced to rhyme with "fool"), is named after him. He worked with Lord Kelvin to develop the absolute scale of temperature, made observations on magnetostriction, and found the relationship between the flow of current through a resistance and the heat dissipated, now called Joule's law.
ref: en.wikipedia.org
1891
J. Palisa discovered asteroid #320 Katharina.
1897
Born, Cai Qiao (at Jieyang, Guangdong, China), Chinese scientist, one of three senior scientists who laid out the plans in April 1966 for China's first manned spacecraft
ref: en.wikipedia.org
1901
L. Carnera discovered asteroid #808 Merxia.
1906
A. Kopff discovered asteroids #613 Ginevra, #614 Pia and #615 Roswitha.
1912
J. Palisa discovered asteroid #734 Benda.
1920
K. Reinmuth discovered asteroid #942 Romilda.
1925
S. Belyavskij discovered asteroid #1062 Ljuba.
1928
G. Neujmin discovered asteroid #1734 Zhongolovich.
1931
G. Neujmin discovered asteroid #1309 Hyperborea.
1933
Died, German rocket pioneer Reinhold Tiling, succumbed to severe burns suffered from an explosion in his propellant processing room on 10 October
Reinhold Tiling (13 June 1893 – 11 October 1933) was a German rocket pioneer who developed wing-recovered black-powder-propelled rockets. Tiling was inspired to pursue rocketry when he heard Oberth lecture on the subject in 1924. Impatient to proceed with rocket control system development, and unwilling to wait for development of liquid rocket engines, he proceeded to work on rockets powered by compressed black powder. He began development of rockets with deployable wings for recovery and reuse in 1928. In 1929, he received funding from the German Navy, ostensibly for development of improved line-throwing rockets for ship-to-ship transfers. By 1931, his rockets were being fired to 7 km altitude and demonstrating stable flight through use of tail fins. He demonstrated the first launch of a rocket from an airplane in 1932, and in the same year was demonstrating variable wing deployment and parachute recovery of rockets. By 1933, he was demonstrating powder rockets with burn durations of as much as ten seconds. A fire broke out on 10 October 1933 in his propellant processing room where he used a proprietary process to compress black powder into solid rocket propellant. He, his assistant Angelika Buddenboehmer and his mechanic Friedrich Kuhr died from burns suffered in the fire and ensuing explosion. His brother, Richard Tiling, continued his work, conducting flight experiments at Cuxhaven in the summer of 1934, until further private development of rocketry in Germany was prohibited by the new Nazi government later that year.
ref: en.wikipedia.org
1936
Born, C. (Charles) Gordon Fullerton (at Rochester, New York, USA), Colonel USAF, NASA astronaut (STS 3, STS 51-F; nearly 15d 23h total time in spaceflight) (deceased)
Astronaut C. Gordon Fullerton, NASA photo
Source: Wikipedia (www.jsc.nasa.gov unavailable October 2019)
ref: en.wikipedia.org
1936
Y. Vaisala discovered asteroid #1631 Kopff.
1937
G. Neujmin discovered asteroid #3036 Krat; K. Reinmuth discovered asteroids #1438 Wendeline, #1439 Vogtia, #1440 Rostia, #1650 Heckmann, #1673 van Houten and #2749.
1945
The first "all-up" Wac Corporal was launched at White Sands, New Mexico. It reached a record altitude with an apogee of 235,000 ft (43.5 miles, 72 km), reported some places as the first man-made object to escape the atmosphere. The recovery system failed.
ref: en.wikipedia.org
1953
T. Mitani discovered asteroid #1619 Ueta.
1958 08:42:00 GMT
NASA launched its first spacecraft, Pioneer 1 (Able 2), on a mission intended to reach Lunar orbit which fell short of that goal because of booster problems.
Pioneer 1 (Able 2), NASA photo
Source: NSSDCA Master Catalog
Pioneer 1, the second and most successful of three project Able space probes and the first spacecraft launched by the newly formed NASA, was intended to study the ionizing radiation, cosmic rays, magnetic fields, and micrometeorites in the vicinity of the Earth and in Lunar orbit. Due to a launch vehicle malfunction (the third stage produced insufficient thrust), the spacecraft did not achieve escape velocity, attained only a ballistic trajectory and never reached the Moon. It did return data on the near-Earth space environment, having set a distance record when it traveled over 70,700 miles before returning to Earth, determined the radial extent of the great radiation belt, made the first observations of Earth's and the interplanetary magnetic field, and the first measurements of micrometeorite density in interplanetary space.
Pioneer 1 consisted of a thin cylindrical midsection with a squat truncated cone frustrum on each side. The cylinder was 74 cm in diameter and the height from the top of one cone to the top of the opposite cone was 76 cm. Along the axis of the spacecraft, and protruding from the end of the lower cone, was an 11 kg solid propellant injection rocket and rocket case, which formed the main structural member of the spacecraft. Eight small low-thrust solid propellant velocity adjustment rockets were mounted on the end of the upper cone in a ring assembly which could be jettisoned after use. A magnetic dipole antenna also protruded from the top of the upper cone. The shell was composed of laminated plastic. The total mass of the spacecraft after vernier separation was 34.2 kg, after injection rocket firing it would have been 23.2 kg.
The scientific instrument package had a mass of 17.8 kg, and consisted of an image scanning infrared television system to study the Moon's surface to a resolution of 1 milliradian, an ionization chamber to measure radiation in space, a diaphragm/microphone assembly to detect micrometeorites, a spin-coil magnetometer to measure magnetic fields to 5 microgauss, and temperature-variable resistors to record spacecraft internal conditions. The spacecraft was powered by nickel-cadmium batteries for ignition of the rockets, silver cell batteries for the television system, and mercury batteries for the remaining circuits. Radio transmission was at on 108.06 MHz through an electric dipole antenna for telemetry and doppler information at 300 mW and a magnetic dipole antenna for the television system at 50 W. Ground commands were received through the electric dipole antenna at 115 MHz. The spacecraft was spin stabilized at 1.8 rps, the spin direction was approximately perpendicular to the geomagnetic meridian planes of the trajectory.
The spacecraft did not reach the Moon as planned due to an incorrectly set valve in the Thor-Able's upper stage, which caused an accelerometer to give faulty information leading to a slight error in burnout velocity (the Thor second stage shut down 10 seconds early) and angle (3.5 degrees). This resulted in a ballistic trajectory with a peak altitude of 113,800 km around 1300 local time. The real-time transmission was obtained for about 75% of the flight, but the percentage of data recorded for each experiment was variable. Except for the first hour of flight, the signal to noise ratio was good. The spacecraft ended transmission when it reentered the Earth's atmosphere after 43 hours of flight on 13 October 1958 at 03:46 UT over the South Pacific Ocean. A small quantity of useful scientific information was returned, showing the radiation surrounding Earth was in the form of bands and measuring the extent of the bands, mapping the total ionizing flux, making the first observations of hydromagnetic oscillations of the magnetic field, and taking the first measurements of the density of micrometeorites and the interplanetary magnetic field.
ref: nssdc.gsfc.nasa.gov
1958 08:42:00 GMT
USSR launched the E-1 s/n 2 Lunar spacecraft (Luna 1958B) from Baikonur on a Vostok-L 8K72 booster, which was intended to reach the Moon, but the launcher disintegrated at T+104 seconds due to longitudinal resonance in the strap-on boosters.
Luna E-1 No.2, originally tentatively identified by NASA as Luna 1958B, was launched either 11 October or 12 October 1958, either at the same time as, or a few hours after NASA's Pioneer 1 mission was launched from Cape Canaveral, Florida (reports vary). This craft was an attempt to reach the Moon and impact its surface. The Luna 8K72 carrier rocket exploded 104 seconds after launch due to longitudinal resonance within the rocket's strap-on booster rockets which caused the vehicle to disintegrate. According to the reports which indicate this mission was launched a few hours after the Pioneer 1 mission, the Soviet Luna probe was on a faster trajectory and would have reached the Moon first. As events turned out, neither probe was successful: Pioneer 1's booster developed insufficient thrust for it to get to the Moon.
See also NASA's Tentatively Identified Missions and Launch Failures page.
ref: en.wikipedia.org
1961 20:20:00 GMT
NASA and the USAF launched X-15A Alt, Aero, Low q Test mission # 43, a partial failure when the outer windshield panel cracked. Robert White reached a max. speed of 3647 mph (5869 kph, Mach 5.21), and a max. altitude of 217,000 ft (66.142 km, 41.099 mi).
ref: en.wikipedia.org
1967
NASA's Lunar Orbiter 2 impacted the Moon.
The Lunar Orbiter 2 spacecraft, launched 6 November 1966, was designed primarily to photograph smooth areas of the Lunar surface for selection and verification of safe landing sites for the Surveyor and Apollo missions. It was also equipped to collect selenodetic, radiation intensity, and micrometeoroid impact data. The spacecraft was placed in a cislunar trajectory and injected into an elliptical near-equatorial Lunar orbit for data acquisition after 92.5 hours flight time, on 10 November 1966. The initial orbit was 196 km x 1850 km at an inclination of 11.8 degrees. The perilune was lowered to 49.7 km five days later after 33 orbits. A failure of the amplifier on the final day of readout, 7 December, resulted in the loss of six photographs. On 8 December 1966 the inclination was altered to 17.5 degrees to provide new data on Lunar gravity.
The spacecraft acquired photographic data from 18-25 November 1966, and readout occurred through 7 December 1966. A total of 609 high resolution and 208 medium resolution frames were returned, most of excellent quality with resolutions down to 1 meter. These included a spectacular oblique picture of Copernicus crater which was dubbed by the news media as one of the great pictures of the century. Accurate data were acquired from all other experiments throughout the mission. Three micrometeorite impacts were recorded. The spacecraft was used for tracking purposes until it impacted the Lunar surface on command at 3.0 degrees N latitude, 119.1 degrees E longitude (selenographic coordinates) on 11 October 1967.
ref: nssdc.gsfc.nasa.gov
1968 15:02:45 GMT
NASA launched Apollo 7 into Earth orbit, the first crewed Apollo mission.
Apollo 7 launch, NASA photo
Source: NSSDCA Master Catalog
Apollo 7 (AS-205), launched 11 October 1968, was the first crewed flight of the Apollo spacecraft, with astronauts Walter Schirra Jr, Donn Eisele, and Walter Cunningham on board. The primary objectives of the Earth orbiting mission were to demonstrate Command and Service Module (CSM), crew, launch vehicle, and mission support facilities performance, and to demonstrate CSM rendezvous capability. Two photographic experiments and three medical experiments were planned.
The Command Module (CM), a cone-shaped craft about 390 cm in diameter at the large end, served as a command, control, and communications center. Supplemented by the Service Module (SM), it provided all life support elements for the crew. The CM was capable of attitude control about three axes and some lateral lift translation. It also served as a buoyant vessel at sea. The SM provided the main propulsion and maneuvering capability. It was jettisoned just before CM reentry. The SM was a cylinder 390 cm in diameter and 670 cm long. The spacecraft mass of 14,781 kg is the mass of the CSM including propellants and expendables. There was no Lunar Module or boilerplate unit on this flight.
The countdown had proceeded smoothly, with only a slight delay because of additional time required to chill the hydrogen system in the S-IVB stage of the Saturn launch vehicle. After lifting off from Launch Complex 34 at Cape Kennedy, Florida, the S-IVB/CSM was put into a 228 x 282 km Earth orbit. Venting of the S-IVB propellants raised the orbit to 232 x 309 km over the next three hours, at which time the S-IVB stage was separated from the CSM. Although spacecraft separation was normal, the crew reported that one adapter panel had not fully deployed. The S-IVB stage was then used for rendezvous maneuvers over the next two days, as Schirra and his crew performed simulated dockings with the S-IVB stage, maneuvering to within 1.2 meters of the rocket.
Shortly after liftoff, the commander (Schirra) reported he was developing a bad head cold. The next day, the other two crew members also reported symptoms. The zero-gravity environment exacerbated their ailments, since normal fluid drainage from the head did not occur. The crew took medication, but the colds caused them extreme discomfort throughout the mission, hampering performance of some of the scheduled duties. During re-entry, the astronauts also did not wear their helmets, to make it possible to properly clear their throats and ears.
Many tests were performed over the course of the 11 day mission, including tests of sextant calibration, attitude control, evaporator, navigation, rendezvous radar, thermal control system, and Service Module propulsion systems. During eight burns of the service propulsion system over the course of the flight, the engine functioned normally. The seven television transmissions made from Apollo 7, commencing on 14 October, were the first live TV transmissions from a piloted US spacecraft. The S-IVB orbit decayed on 18 October, and it impacted the Indian Ocean at 9:30 UT. At 10:46 UT on 22 October, the SM was jettisoned, and re-entry of the CM and crew started 10 minutes later.
Apollo 7 splashed down in the Atlantic Ocean on 22 October 1968 at 11:11:48 UT (7:11:48 a.m. EDT) after a mission elapsed time of 260 hours, 9 minutes, 3 seconds. The splashdown occurred at 27 deg 32 min N, 64 deg 04 min W, 200 nautical miles SSW of Bermuda and 13 km (8 mi) north of the recovery ship USS Essex.
For nearly 30 years the Apollo 7 Command Module was on loan (renewable every two years) to the National Museum of Science and Technology of Canada, in Ottawa, along with the space suit worn by Wally Schirra. In November 2003, the Smithsonian Institution in Washington, DC, requested them back for display at their new annex at the Steven F. Udvar-Hazy Center.
The Apollo program included a large number of uncrewed test missions and 12 crewed missions: three Earth orbiting missions (Apollo 7, 9 and Apollo-Soyuz), two Lunar orbiting missions (Apollo 8 and 10), a Lunar swingby (Apollo 13), and six Moon landing missions (Apollo 11, 12, 14, 15, 16, and 17). Two astronauts from each of the six landing missions walked on the Moon (Neil Armstrong, Edwin Aldrin, Charles Conrad, Alan Bean, Alan Shepard, Edgar Mitchell, David Scott, James Irwin, John Young, Charles Duke, Gene Cernan, and Harrison Schmitt), the only humans to have set foot on another solar system body (through 2014).
ref: nssdc.gsfc.nasa.gov
1969 11:10:00 GMT
USSR launched Soyuz 6 from Baikonur to conduct welding experiments in space, and rendezvous with Soyuz 7 and 8.
Soyuz 6 (call sign Antey/Antasus), was launched 11 October 1969 with cosmonauts Shonin and Kubasov aboard, to conduct welding experiments in vacuum, biomedical experiments, stellar observations, photography, and maneuvers with the Soyuz 7 and 8 spacecraft.
Soyuz 6 was piloted by cosmonaut G. Shonin, Commander, and cosmonaut V. Kubasov, Flight Engineer. The announced mission objectives included (1) checkout and flight test of space borne systems and the modified structure of the Soyuz craft, (2) further inprovement of the control, orientation, and orbital stabilization systems and navigation aids, (3) debugging the piloting systems by orbital maneuvering of the spaceships in relation to one another, (4) testing of a system for control of the simultaneous flight of three spacecraft, (5) scientific observations and photographing of geological-geographical subjects and exploration of the Earth's atmosphere, (6) studying circumterrestrial space, and (7) conducting experiments of engineering research and biomedical importance. Stable two-way radio communications was maintained between the spaceships and the ground stations, and TV coverage was broadcast from the ships during flight. The most significant objective was testing alternate methods for welding using remote handling equipment in the high vacuum and weightless conditions of outer space. In Soyuz 6, a welding unit called Vulkan, for vacuum welding experiments in the depressurized orbital module, was controlled remotely by electric cable. Of the three types of welding tried (low pressure compressed arc, electron beam, and arc with a consumable electrode), electron beam was the most successful. Soyuz 6 also performed group flight with Soyuz 7 and Soyuz 8, but it did not dock with either spacecraft.
Soyuz 6 was supposed to have taken spectacular motion pictures of a docking by the Soyuz 7 and Soyuz 8 crafts, but the failure of the rendezvous electronics in all three craft (due to a new helium pressurization integrity test prior to mission) did not permit successful rendezvous and dockings.
Soyuz 6 returned to Earth on 16 October 1969.
ref: nssdc.gsfc.nasa.gov
1971
Crimean Astrophysical Observatory discovered asteroid #2698 Azerbaijan.
1971
The USSR Salyut 1 space station, the first to orbit the Earth, re-entered the Earth's atmosphere and burned up.
The first space station, Salyut 1 (also called DOS 1 and Zarya), was launched 19 April 1971 from Baikonur Cosmodrome. Its announced purpose was to test the elements of the systems of a space station and to conduct scientific research and experiments. The cylindrical Soviet facility was 13.1 meters (43 feet) long (20 meters by some reports) and about 4.2 meters (13'9") across (outside dimensions), designed for a crew of three. Of its several compartments, three were pressurized (100 cubic m total), and two could be entered by the crew. The first (transfer) compartment was connected directly with the Soyuz craft that carried the crew from Earth. The second (main) compartment was about 4 meters in diameter. Televised views showed enough space for eight big chairs (seven at work consoles), several control panels, and 20 portholes (some unobstructed by instruments). The third pressurized compartment contained the control and communications equipment, the power supply, the life support system, and other auxiliary equipment. The fourth, and final, compartment (unpressurized) was about 2 meters in diameter, and contained the engines and associated control equipment. Salyut had buffer chemical batteries, reserve supplies of oxygen and water, and regeneration systems. Externally mounted were two double sets of solar cell panels that extended like wings from the smaller compartments at each end, the heat regulation system's radiators, and orientation and control devices.
After taking 24 hours for rendezvous and approach, Soyuz 10 docked with Salyut on 23 April 1971 and remained docked for 5.5 hours. The crew (Vladimir Shatalov, Alexei Yeliseyev and Nikolai Rukavishnikov) did not transfer to the space station because their docking mechanism was damaged during the attempt.
Soyuz 11 required 3 hours 19 minites on 7 June 1971 to complete docking. The next crew (Georgi Dobrovolski, Vladislav Volkov and Viktor Patsayev) spent 22 days on the station. Their mission was announced as (1) checking and testing the design, units, onboard systems, and equipment of the orbital piloted station, (2) trying out the methods and autonomous means of the station's orientation and navigation, as well as the systems for controlling the space complex while maneuvering in orbit, (3) studying geological-geographical objects on the Earth's surface, atmospheric formations, and the snow and ice cover of the Earth, (4) studying physical characteristics, processes, and phenomena in the atmosphere and outer space in various ranges of the spectrum of electromagnetic radiation, and (5) conducting medico-biological studies to determine the possibilities of performing various jobs by the cosmonauts in the station and study the influence of space flight factors on the human organism. On 29 June, after flying 362 orbits docked with Salyut, the Soyuz 11 crew transferred back to Soyuz 11; they died during the return trip to Earth because of a hatch seal failure.
Originally designed to last three months, Salyut 1 was kept aloft to study how the systems behaved over an extended period, in order to identify fixes to improve their reliability on later flights. It was moved to higher orbits in July and August of 1971 to ensure that it would not end through early decay. During the extended period fuel consumption and the ballistic and drag characteristics of the station were determined. Use of the reaction control system became difficult after an electrical failure in early October. Georgiy Degytyarenko recommended to Mishin that the station be deorbited safely into the Pacific Ocean without delay before complete control was lost. Mishin agreed and the signal was transmitted from Yevpatoriya on 10 October. The same procedure was followed for all subsequent stations except Salyut 7 (where control was completely lost).
On 11 October 1971, the Salyut 1 engines were fired, for the last time, to lower its orbit and ensure prompt decay over the Pacific Ocean. After 175 days in orbit, the first real space station disintegrated when it reentered the Earth's atmosphere, never having been used again.
ref: nssdc.gsfc.nasa.gov
1977 03:24:00 GMT
USSR Soyuz 25, crewed by Vladimir Kovalyonok and Valeri Ryumin, landed after an unsuccessful flight which did not dock at Salyut 6, the eighth Soviet space station mission to fail in 13 attempts.
ref: nssdc.gsfc.nasa.gov
1979
Purple Mountain Observatory discovered asteroid #3014.
1980
N. Chernykh discovered asteroid #2910 Yoshkar-Ola.
1980 09:50:00 GMT
USSR's Soyuz 37 landed with the Soyuz 35 crew of Popov and Ryumin aboard, returning from the Salyut 6 space station.
ref: nssdc.gsfc.nasa.gov
1983
IRAS discovered asteroid #3200 Phaethon.
1984
During the 3h 30m STS-41-G-1 EVA, Challenger astronauts Leestma and Sullivan simulated refuelling of a satellite during an EVA in which Dr. Kathryn D. Sullivan became the first American woman to walk in space.
STS 41-G was launched 5 October 1984 after a smooth countdown that proceeded to an on-time liftoff.
STS 41-G was the first space flight to include two women, Ride and Sullivan. Sullivan also became the first American woman to walk in space on 14 October 1984, and Garneau became the first Canadian in space.
The Earth Radiation Budget Satellite (ERBS) was deployed less than nine hours into the flight. Office of Space and Terrestrial Applications-3 (OSTA-3) carried three experiments in payload bay. Components of the Orbital Refueling System (ORS) were connected, demonstrating it is possible to refuel satellites in orbit. The crew also collected high resolution Earth imagery. Other payloads: Large Format Camera (LFC); IMAX camera, flying for third time; package of Canadian Experiments (CANEX); Auroral Photography Experiment (APE); Radiation Monitoring Equipment (RME); Thermoluminescent Dosimeter (TLD); and eight Get Away Special (GAS) cannisters.
In response to the American Strategic Defense Initiative and continued military use of the Shuttle, the Soviet Union fired a "warning shot" from the Terra-3 laser complex at Sary Shagan. The facility tracked Challenger with a low power laser on 10 October 1984. This caused malfunctions in on-board equipment and discomfort and/or temporary blinding of the crew, leading to a US diplomatic protest.
STS 41-G ended 13 October 1984 when Challenger landed on revolution 133 on Runway 33, Kennedy Space Center, Florida. Rollout distance: 10,565 feet. Rollout time: 54 seconds. Launch weight: 242,780 pounds. Landing weight: 202,266 pounds. Orbit altitude: 218 nautical miles. Orbit inclination: 57 degrees. Mission duration: eight days, five hours, 23 minutes, 38 seconds. Miles traveled: 3.3 million.
The flight crew for STS 41-G was: Robert L. Crippen, Commander; Jon A. McBride, Pilot; Kathryn D. Sullivan, Mission Specialist 1; Sally K. Ride, Mission Specialist 2; David C. Leestma, Mission Specialist 3; Marc Garneau, Payload Specialist 1; Paul D. Scully-Power, Payload Specialist 2.
ref: www.spacefacts.de
ref: www.nasa.gov
1985
C. and E. Shoemaker discovered asteroid #3640 Gostin.
1993 21:33:00 GMT
Russia launched the Progress M-20 unmanned resupply vessel from Baikonur to the Mir space station.
Russia launched the Progress M-20 unmanned resupply vessel from Baikonur to the Mir space station, carrying a Raduga reentry capsule for return of experimental materials to Earth. An improved version of cargo freighters used to supply the Mir space station, the Progress M series had greater cargo capacity, a modernized approach/docking system and carried 2 solar panels to generate electrical power. Progress M-20 docked with Mir on 13 Oct 1993 23:24:46 GMT, and undocked on 21 Nov 1993 02:38:43 GMT. The capsule landed in Kazakhstan on 21 Nov 1993 09:06:00 GMT. Total free-flight time 2.35 days. Total docked time 38.13 days.
ref: nssdc.gsfc.nasa.gov
1994 10:02:08 PDT (GMT -7:00:00)
NASA's STS 68 (Endeavour 7, 65th Shuttle mission) ended after carrying the Space Radar Laboratory-2 (SRL 2) package to orbit.
The first launch attempt of STS 68 on 18 August 1994 was halted at T-1.9 seconds when the orbiter's computers shut down all three main engines after detecting an unacceptably high discharge temperature in the high pressure oxidizer turbopump turbine for main engine number three. Endeavour was returned to the Vehicle Assembly Building (VAB) and all three engines were replaced. The countdown for the second launch attempt proceeded smoothly to an on time liftoff on 30 September 1994.
STS 68 marked the second flight in 1994 of the Space Radar Laboratory (the first flight was STS 59 in April), part of NASA's Mission to Planet Earth. Flying SRL during different seasons allowed comparison of the changes between the first and second flights. SRL-2 was activated on flight day one, and around-the-clock observations were conducted by the astronauts, split into two teams. Besides repeating data takes over the same locations as on the first flight, unusual events were also imaged, including an erupting volcano in Russia and the islands of Japan after the earthquake there. Also tested was the ability of SRL-2 imaging radars, Spaceborne Imaging Radar-C (SIR-C) and X- band Synthetic Aperture Radar (X-SAR), to discern difference between such human-induced phenomena as an oil spill in the ocean and a naturally occurring film.
The mission also took advantage of the opportunity to study fires set in British Columbia, Canada, for forest management purposes. Special readings were taken with another SRL element, Measurement of Air Pollution from Satellites (MAPS), to gain a better understanding of carbon monoxide emissions from the burning forest. Flying for the fourth time on the Shuttle, MAPS was designed to measure the global distribution of carbon monoxide.
On flight day six, the mission was extended one day by the Mission Management Team. The maneuvering capability of the orbiter was demonstrated anew in the latter half of the mission, when a different data-gathering method was tried. Called interferometry, it required repeated, nearly coincidental imaging passes with the SIR-C/X-SAR over target sites. In one instance, was Endeavour piloted to within 30 feet (nine meters) of where it was flown on the first flight in April. The collected data can be transcribed into detailed topographic images showing elevation and other features. Interferometric passes were completed over central North America, the Amazon forests of central Brazil, and the volcanoes of the Kamchatka Peninsula in Russia. Such images, if produced regularly over a long term, could provide information on movements of the Earth's surface as small as fraction of an inch, which could be invaluable in detecting pre-eruptive changes in volcanoes and movements in fault lines before earthquakes.
Other cargo bay payloads flown on STS 68 included five Get Away Special (GAS) cannisters: two sponsored by university student groups, one by the Swedish Space Corporation, and two by the US Postal Service holding 500,000 commemorative stamps honoring the 25th anniversary of Apollo 11.
The middeck payloads on STS 68 were: Commercial Protein Crystal Growth (CPCG) to study dynamics of protein crystallization and to obtain protein crystals large enough to allow structural analysis; Biological Research in Canisters (BRIC-01), flying for first time and holding gypsy moth eggs to determine how microgravity affects moth development; CHROMEX-05, fifth in series designed to examine effects of microgravity on physiological processes in plants. Previous CHROMEX flights have shown that plants grown in space may not produce seed embryos; CHROMEX-05 was designed to show whether infertility is due to microgravity or an another environmental factor. Also in middeck were: Cosmic Radiation Effects and Activation Monitor (CREAM), to collect data on cosmic rays; and Military Applications of Ship Tracks (MAST), part of a five-year Navy effort to study the effects of ships on the marine environment.
Problems encountered during STS 68 included a missing tile around an overhead window; a suspect temperature sensor on an orbiter Reaction Control System (RCS) vernier thruster, which led to a temporary cessation of SRL-2 radar observations; and a failed primary RCS thruster.
STS 68 ended 11 October 1994 when Endeavour landed on revolution 182 on Runway 22, Edwards Air Force Base, California. Rollout distance: 8,495 feet (2,589 meters). Rollout time: 60 seconds. Orbit altitude: 120 nautical miles. Orbit inclination: 57 degrees. Mission duration: 11 days, five hours, 46 minutes, eight seconds. Miles traveled: 4.7 million. OV-105 was returned to KSC atop the 747 Shuttle Carrier Aircraft on 12 October 1994.
The landing was diverted to Edwards due to unacceptable weather at Kennedy Space Center. Post-landing video showed what appeared to be water dripping from the area of the centerline latch for the orbiter/external tank doors; the source was later found to be a cracked valve in water spray boiler number three.
The flight crew for STS 68 was: Michael A. Baker, Commander; Terrence W. Wilcutt, Pilot; Thomas D. Jones, Payload Commander; Steven L. Smith, Mission Specialist 1; Daniel W. Bursch, Mission specialist 2; Peter J.K. Wisoff, Mission Specialist 3.
ref: www.nasa.gov
1995 16:26:00 GMT
Russia launched Luch 1 from Baikonur, an improved Altair/SR geosynchronous military satellite for communication with the Mir space station and other orbital spacecraft, positioned in geosynchronous orbit at 77 deg E.
ref: nssdc.gsfc.nasa.gov
2000 18:17:00 CDT (GMT -5:00:00)
NASA launched STS 92 (Discovery 28, Shuttle 100) for the International Space Station Flight 3A mission.
STS 92 was launched 11 October 2000. It docked at the International Space Station on 13 October, and undocked prior to returning to Earth, on 20 October.
During STS 92, the crew brought the Z-1 Truss (mounted on a Spacelab pallet), Control Moment Gyros, Pressurized Mating Adapter-3 (PMA-3) and two DDCU (Heat pipes) to the International Space Station.
STS 92 crew members conducted four space walks on the outside of the docked complex. Beginning 15 October, space walkers conducted the complex, demanding tasks that were required for installation of the Z1 Truss and Pressurized Mating Adapter 3 onto the station's Unity module. Mission Specialists Leroy Chiao and Bill McArthur performed the first and third excursions. Mission Specialists Jeff Wisoff and Michael Lopez-Alegria performed the second and fourth. The total space walk time for the mission was 27 hours, 19 minutes.
During the International Space Station 3A mission (STS 92), the following elements were added: 1) Integrated Truss Structure Z1, an early exterior framework to allow the first US solar arrays on Flight 4A to be temporarily installed on Unity for early power; 2) Ku-band Communication System, to support early science capability and US television broadcasts on Flight 6A; 3) Control Moment Gyros, to provide non-propulsive (electrically powered) attitude control when activated on Flight 5A; and, 4) Pressurized Mating Adapter 3, to provide a shuttle docking port for solar array installation on Flight 4A, and Lab installation on Flight 5A.
STS 92 ended 24 October 2000 when Discovery landed at Edwards Air Force Base, California. Orbit altitude: 177 nautical miles. Orbit inclination: 51.6 degrees. Mission duration: 12 days, 21 hours, 43 minutes. Miles traveled: 5.3 million.
The flight crew for STS 92 was: Commander Brian Duffy, Pilot Pam Melroy, Mission Specialists Leroy Chiao, Bill McArthur, Koichi Wakata (NASDA), Jeff Wisoff and Mike Lopez-Alegria.
ref: www.nasa.gov
ref: www.nasa.gov
2019
Died, Alexei Arkhipovich Leonov (at Moscow, Russian Federation), Major General Soviet AF, Soviet cosmonaut (Voskhod II, Soyuz 19; 7d 32m total time in spaceflight), the first person to walk in space
ref: www.spacefacts.de
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